The periodic time of a body executing simple harmonic motion is 3 sec. After how much time from time `t=0` , its displacement will be half of its amplitude

In simple harmonic motion, the ratio of acceleration of the particle to its displacement at any time is a measure of

A partilce is executive simple harmonic motion given by x=5sin(4t-pi/6) The velocity of the particle when its displacement is 3 units is

When the potential energy of a particle executing simple harmonic motion is one-fourth of its maximum value during the oscillation, the displacement of the particle from the equilibrium position in terms of its amplitude a is

A body is executing simple harmonic motion with an angular frequency 2 rad/ s . The velocity of the body at 20 mm displacement, when the amplitude of motion is 60 mm , is

A particle is executing simple harmonic motion with a time period T . At time t=0, it is at its position of equilibium. The kinetice energy -time graph of the particle will look like

A simple pendulum performs S.H.M of period 4 seconds. How much time after crossing the mean position , will the displacement of the bob be one third of its amplitude.

A body starting from mean position is executing simple harmonic motion. Its time . period is 24 s. After 4 s, its velocity is pi" "m//s then its path length is

If x, v and a denote the displacement, the velocity and the acceleration of a particle executing simple harmonic motion of time period T, then, which of the following does not change with time?

If the displacement (x) and velocity (v) of a particle executing simple harmonic motion are related through the expression 4v^2=25-x^2 , then its time period is given by